KR200367715Y1 - Partition Panel use Magnesium - Google Patents

Abstract

The present invention relates to a wall panel structure mainly composed of magnesium, and a magnesium molded layer is formed to a predetermined thickness by mixing 53 to 61 wt% magnesium oxide, 15 to 23 wt% magnesium chloride and 20 to 28 wt% water. After molding, after forming a magnesium molding layer containing a cellulose fiber in the form of a mesh on the upper surface of the magnesium molding layer, and forming a styrofoam mixed layer mixed with styrofoam and liquid magnesium to a predetermined thickness, the styrofoam mixed layer Styrofoam was formed by curing the wall panel structure formed with a certain thickness of a magnesium molding layer having a mesh type cellulose fiber on the upper surface in a curing chamber at 50 to 60 ° C for 5 to 8 hours, and then demolding and inserting it between the magnesium molding layers. By pouring the mixture and curing it in a high temperature curing room in a short time, the productivity and economic efficiency of the wall panel are excellent. Excellent Castle, the toxin is harmless to the human body not at all an environmentally friendly building materials that the main ingredient of natural magnesium mineral, excellent insect, fungal room.

Description

Wall panel structure based on magnesium {Partition Panel use Magnesium}

The present invention relates to a wall panel structure based on magnesium.

More specifically, internal and external walls used in the construction of apartments or buildings are embedded with cellulose fibers having high strength in a magnesium molded layer having a constant thickness, and between styrofoam and magnesium formed between the magnesium formed layer and the magnesium formed layer. And a magnesium-based wall panel structure, which is molded through a curing process in a high-temperature curing room and has excellent effects of ultra-light weight, soundproofing, and heat insulation, and has improved convenience and economy by shortening the construction process. .

In general, building panels have used a heat insulating material such as styrofoam on both sides of the iron plate on the inner surface in order to dry and lightweight. Such building panels are used for various purposes in various buildings such as factory buildings and pension houses.

The prior art of building panels is published in Republic of Korea Patent No. 96426 "Lightweight composite panel structure and manufacturing method" and Utility Model Registration No. 158855 "Building interior and exterior panel structure".

The lightweight composite panel structure and manufacturing method of Patent No. 96426 are made by adhering a styrofoam lightweight concrete and a cellulose fiber cement board with an acrylic resin adhesive in attaching cellulose fiber cement boards integrally to the front and back surfaces of the lightweight foam concrete.

The Utility Model Registration No. 158855 attaches CRC Board (Compressed Cellulose Cement Board) integrally to the surface and the back of the lightweight foamed concrete, wherein the lightweight foamed concrete mixes very small styrofoam particles, and the small styrofoam particles are mixed. By splitting the middle of the lightweight foam concrete, the extruded foam insulation is laminated therebetween, or the CRC board is integrally bonded to the surface and the back of the extruded foam insulation.

In addition, Utility Model Registration No. 344480, "Lightweight Foam Concrete Wall Panel Structure," is published, which is manufactured by mixing cement, styrofoam particles, foaming agents, fluidizing agents, and adjuvants between cellulose fiber cement boards. A lightweight foamed concrete wall panel structure manufactured by directly pouring a styrofoam mixed foamed concrete mortar and demolding after curing in a curing room is disclosed.

All of the wall panel structures as described above may have a great effect on the human body since the main material is cement. In particular, it is well known that cement toxicity is harmful to the human body due to sick house syndrome.

Therefore, as an environmentally friendly building material, magnesium, a natural inorganic substance, is used as the main raw material, which has fire resistance, water resistance, and durability. There is a need for building wall panel structures.

In order to achieve the above object, an object of the present invention is a styrofoam mixture in which a styrofoam and a liquid magnesium are mixed between a magnesium forming layer and a magnesium forming layer in which a mesh-shaped cellulose fiber is embedded in a magnesium forming layer having a predetermined thickness. It is to provide a wall panel structure with magnesium as the main raw material, which is excellent in productivity and economical efficiency, and capable of mass production of wall panels by pouring a styrofoam mixed layer having a constant thickness into a magnesium as a main material.

1 is an exploded perspective view showing a wall panel structure mainly made of magnesium according to the present invention;

2 is a perspective view of a state in which a wall panel structure mainly made of magnesium according to the present invention is applied.

<Explanation of symbols for the main parts of the drawings>

10: magnesium forming layer 11: cellulose fiber

12: styrofoam mixed layer

In order to achieve the above object, the wall panel structure mainly made of magnesium of the present invention has a magnesium by mixing 53 to 61% by weight of magnesium oxide, 15 to 23% by weight of magnesium chloride and 20 to 28% by weight of water. The molding layer is molded to a predetermined thickness, and a magnesium molding layer in which a cellulose fiber of a mesh type is embedded is formed on the upper surface of the magnesium molding layer, and then a styrofoam mixed layer mixed with styrofoam and liquid magnesium is formed into a predetermined thickness. And molding the wall panel structure having a predetermined thickness of a magnesium molding layer having a mesh type cellulose fiber embedded on the upper surface of the styrofoam mixed layer in a curing chamber at 50 to 60 ° C. for 5 to 8 hours, and then demolding. It is done.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

1 is an exploded perspective view showing a wall panel structure mainly made of magnesium according to the present invention, and FIG. 2 is a perspective view of a state where a wall panel structure made mainly of magnesium according to the present invention is applied.

As shown in FIGS. 1 and 2, a magnesium molding layer 10 having a predetermined thickness, a styrofoam mixed layer 12 formed by mixing styrofoam and magnesium, and a magnesium molding layer 10 having a predetermined thickness are formed.

The magnesium forming layer 10 prepares a magnesium mixture in which 53 to 61% by weight of magnesium oxide, 15 to 23% by weight of magnesium chloride, and 20 to 28% by weight of water are appropriately mixed.

The styrofoam mixed layer 12 prepares a styrofoam mixture in which 2 to 6% by weight of styrofoam, 16 to 20% by weight of liquid magnesium chloride, 53 to 57% by weight of liquid magnesium oxide, and 21 to 25% by weight of water are appropriately mixed. do.

The water mixed in the magnesium forming layer 10 and the styrofoam mixed layer 12 includes 0.1 to 0.5% by weight of the foaming agent, 1.0 to 2% by weight of the coarse agent, and 0.5 to 1.2% by weight of the emulsifier.

Foaming agent is used to reduce the surface tension by increasing the surface area of the liquid, soap, lot oil, saponin, sodium hydrogen carbonate, ammonium carbonate, diazoamino benzene, etc., emulsifier is a stable emulsion of two liquids that do not mix with each other Alkaline soaps, synthetic detergents, alginates and the like are used as liquids, and the crude agent is used to accelerate the curing rate.

The magnesium mixture is diluted to 25 to 30% of magnesium chloride in water and mixed to mix the magnesium oxide well, but a proper amount of dough is not too squeezed, and the thickness of 0.6m × 3.0m is adjusted. Magnesium chloride and magnesium oxide are mixed into this possible flat mold.

Magnesium is a silvery white, light metal that is ductile, making thin foils and thin wires, and does not change in dry air at room temperature because a thin film of magnesium oxide prevents the progress of oxidation. In air, the glossiness gradually fades.

The prepared magnesium mixture is poured into a mold and pressurized with a roller to be molded to an appropriate thickness to form the magnesium forming layer 10, and the cellulose fibers 11 in the form of long fibers formed of neatly arranged fabrics are disposed.

The magnesium mixture is poured into the upper surface of the cellulose fiber 11 again, pressurized with a pressure roller, and then the cellulose fiber 11 in the form of a long fiber is disposed to form a magnesium molding layer 10 having a constant thickness.

The long fiber is like a mesh, it is preferable to use a long fiber made of a mat (300 g weight per square meter), the roller is a circular roller through which steam is passed to maintain the heating temperature of the roller 50 ~ 60 ℃ While pressurizing the mixture.

Pour the styrofoam mixture mixed with styrofoam and liquid magnesium on the magnesium forming layer 10 to have an appropriate thickness, pressurized with a pressure roller to form the styrofoam mixed layer 12 and then the same as the magnesium forming layer 10 After arranging the cellulose fibers 11 in the form of fibers, the magnesium forming layer 10 is formed.

In addition, in order to lighten the weight of the wall panel, a small amount of a foaming agent and a fluidizing agent are added. The foaming agent increases durability by air entrainment, improves workability and fluidity, increases water tightness and compressive strength, and separates materials. Mix small amounts to reduce bleeding.

The fluidizing agent promotes slump by the strong dispersing action of magnesium particles, and facilitates pouring, and prevents cracking due to less dry shrinkage.

The cellulose fibers are reinforced by strengthening the strength of the wall panel, and the finished wall panel is cured in a curing room at 50-60 ° C. for 5-8 hours and then demolded.

In order to facilitate the assembly of the wall panel, grooves 21 are formed on one side along the longitudinal direction of the wall panel, protrusions 22 are formed on the other side, and grooves fitted to a fixing member fixed to the bottom surface on the lower surface thereof. 23) to make construction easier when constructing on site

Magnesium wall panel as described above is to pour the styrofoam mixture inserted between the magnesium forming layer, and curing in a high temperature curing room in a short time, excellent productivity and economic efficiency of the wall panel, excellent fire resistance, water resistance and durability, and natural inorganic As an eco-friendly building material based on magnesium, it is free of toxins that are harmless to the human body, and has excellent insect repellent and antibacterial properties.

In addition, by curing at high temperature for a short time, the curing time is shortened, not only to reduce labor and construction costs, but also lighter than existing concrete wall panels, making construction easier, and having high sound insulation and insulation effect of magnesium.

Claims (3)

53-61% by weight of magnesium oxide, 15-23% by weight of magnesium chloride and 20-28% by weight of water are mixed to form a magnesium molding layer to a predetermined thickness, and the mesh-like cellulose is formed on the upper surface of the magnesium molding layer. After molding a magnesium molding layer containing wood fibers (cellulose fiber), a styrofoam mixed layer mixed with styrofoam and liquid magnesium is molded to a predetermined thickness, and a magnesium molding having a mesh type cellulose fiber embedded on the upper surface of the styrofoam mixed layer. Magnesium-based wall panel structure, characterized in that the wall panel structure is formed in a predetermined thickness for 5 to 8 hours in a curing room at 50 ~ 60 ℃ curing after demolding. The method of claim 1, Magnesium-based wall panel structure, characterized in that the groove is formed on one side in the longitudinal direction of the wall panel, the projection is formed on the other side, the groove is formed on the lower surface to facilitate the construction of the wall panel . The method of claim 1, The styrofoam mixed layer 12 is a mixture of 2 to 6% by weight of styrofoam, 16 to 20% by weight of liquid magnesium chloride, 53 to 57% by weight of liquid magnesium oxide, and 21 to 25% by weight of water. Wall panel structure mainly made of magnesium.